Abstract
BackgroundReference frames ground spatial communication by mapping ambiguous language (for example, navigation: “to the left”) to properties of the speaker (using a Relative reference frame: “to my left”) or the world (Absolute reference frame: “to the north”). People’s preferences for reference frame vary depending on factors like their culture, the specific task in which they are engaged, and differences among individuals. Although most people are proficient with both reference frames, it is unknown whether preference for reference frames is stable within people or varies based on the specific spatial domain. These alternatives are difficult to adjudicate because navigation is one of few spatial domains that can be naturally solved using multiple reference frames. That is, while spatial navigation directions can be specified using Absolute or Relative reference frames (“go north” vs “go left”), other spatial domains predominantly use Relative reference frames. Here, we used two domains to test the stability of reference frame preference: one based on navigating a four-way intersection; and the other based on the sport of ultimate frisbee. We recruited 58 ultimate frisbee players to complete an online experiment. We measured reaction time and accuracy while participants solved spatial problems in each domain using verbal prompts containing either Relative or Absolute reference frames. Details of the task in both domains were kept as similar as possible while remaining ecologically plausible so that reference frame preference could emerge.ResultsWe pre-registered a prediction that participants would be faster using their preferred reference frame type and that this advantage would correlate across domains; we did not find such a correlation. Instead, the data reveal that people use distinct reference frames in each domain.ConclusionThis experiment reveals that spatial reference frame types are not stable and may be differentially suited to specific domains. This finding has broad implications for communicating spatial information by offering an important consideration for how spatial reference frames are used in communication: task constraints may affect reference frame choice as much as individual factors or culture.
Highlights
Reference frames ground spatial communication by mapping ambiguous language to properties of the speaker or the world (Absolute reference frame: “to the north”)
For large-scale spatial tasks, like navigation, people from the USA and Europe vary in whether they prefer body- or Absolute reference frames (“turn right” or “go east”). This presents a crucial question about how to design effective spatial descriptions: are spatial reference frame preferences for large-scale spaces stable within individuals? One difficulty in answering this question is that few tasks besides navigation require communication of large-scale spatial information
In a study on ultimate frisbee players, we find no individual preference for reference frame type across the two large-scale tasks, but robust differences in reference frame use across the two tasks
Summary
Reference frames ground spatial communication by mapping ambiguous language (for example, navigation: “to the left”) to properties of the speaker (using a Relative reference frame: “to my left”) or the world (Absolute reference frame: “to the north”). Cognitive scientists (from philosophy, psychology, linguistics, and neuroscience (e.g., Danziger 2010; Majid et al 2004) have theorized that reference frames can be specified in one of three primary ways: Relative (body-based and with respect to one’s facing direction: “take the street to your left”); Absolute (environment-based and with respect to a stable property of one’s surroundings: “travel west”); or Intrinsic (object-based and with respect to a property of an object: “travel in the direction the clocktower faces”) As these examples illustrate, communicating spatial directions for navigation can use any of these reference frame types. A key distinction between them is that Absolute reference frame specifications do not vary as a function of the orientation of the speaker (travel west), whereas Relative reference frame specifications do vary
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